US20100075546A1 - Retainer, Lay-in Lug Assembly Nut Plate Retainer - Google Patents
Retainer, Lay-in Lug Assembly Nut Plate Retainer Download PDFInfo
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- US20100075546A1 US20100075546A1 US12/563,202 US56320209A US2010075546A1 US 20100075546 A1 US20100075546 A1 US 20100075546A1 US 56320209 A US56320209 A US 56320209A US 2010075546 A1 US2010075546 A1 US 2010075546A1
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- lug
- nut plate
- wall
- lay
- retaining
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R4/00—Electrically-conductive connections between two or more conductive members in direct contact, i.e. touching one another; Means for effecting or maintaining such contact; Electrically-conductive connections having two or more spaced connecting locations for conductors and using contact members penetrating insulation
- H01R4/28—Clamped connections, spring connections
- H01R4/30—Clamped connections, spring connections utilising a screw or nut clamping member
- H01R4/36—Conductive members located under tip of screw
Definitions
- the present invention relates generally to a lay-in lug nut plate retainer. More particularly, the invention encompasses a nut plate retainer for a lay-in lug assembly nut plate. The present invention is also directed to a novel lay-in nut plate retainer which provides an alternative way to secure a nut plate to a lay-in lug body during shipping and/or the installation process.
- the inventive nut plate retainer has a cover with an open area and at least two legs to surround a portion of the lay-in lug and the nut plate.
- Lay-in lugs are provided in many electrical products as the means to electrically connect service or feed phase/neutral conductors to electrical metering equipment and/or circuit protection.
- All lay-in lug assemblies contain a lug body, a tapped plate (referred to as the nut plate) and a wire binding screw.
- the wire binding screw and the nut plate are removed by sliding out the nut plate prior to installing a phase/neutral conductor. Sliding-out the wire binding screw and nut plate provides top down access to the lug body. This simplifies the installation of a phase/neutral conductor to the lug body. Once the phase/neutral conductor has been installed the nut plate is slide-in and the wire binding screw is driven to the necessary torque requirements.
- nut plates used today in lay-in lug assemblies. Extruded-punched and formed plates are known to be used in existing applications. If the nut plate is of the extruded type, then the nut plate would only need to be secured in the direction of assembly (front to back with respect to the lug body). This means an additional bi-directional restraint is needed. In the extruded case, the nut plate, by default, would be constrained from top to bottom with respect to the lug body.
- This invention improves on the deficiencies of the prior art and provides an inventive lay-in lug assembly nut plate retainer.
- the invention is a novel lay-in lug assembly nut plate retainer.
- one purpose of this invention is to provide a nut plate retainer for a lay-in lug assembly.
- Another purpose of this invention is to provide a reliable solution to use a nut plate retainer for a lay-in lug assembly.
- Yet another purpose of this invention is to provide a robust nut plate retainer for a lay-in lug assembly.
- this invention comprises a lay-in lug comprising:
- a nut plate retainer configured to cover at least a portion of said first lug wall and said second lug wall, and substantially restrict said nut plate from moving in a direction substantially along said first and second lug walls relative to at least one open end in said lay-in lug.
- this invention comprises a nut plate retainer for preventing a nut plate of a lay-in lug from moving along a wall of said lay-in lug comprising:
- first retaining leg extending from a first section of said retaining cover, wherein said first retaining leg covers at least a portion of a first outer wall of said lay-in lug, and restricts movement of a first end of said nut plate;
- a second retaining leg extending from a second section of said retaining cover, wherein said second retaining leg covers at least a portion of a second outer wall of said lay-in lug, and restricts movement of a second end of said nut plate.
- this invention comprises a lay-in lug comprising:
- a retaining means configured to cover at least a portion of said first lug wall and said second lug wall, and substantially restrict said nut plate from moving in a direction substantially along said first and second lug walls.
- FIG. 1 illustrates a front perspective view of a prior art lay-in lug
- FIG. 2 illustrates a top-front perspective exploded view of a prior art lay-in lug
- FIG. 3 illustrates a front perspective view of a lay-in lug according to an embodiment of the invention
- FIG. 4 illustrates an exploded view of a lay-in lug assembly and the inventive nut plate retainer according to an embodiment of the present invention
- FIG. 5 illustrates a front perspective view of a lay-in lug assembly with the inventive nut plate retainer secured thereto according to an embodiment of the present invention.
- This invention removes the dependency between nut plate retention and the binding screw location/torque.
- the lay-in lug nut plate retainer secures the nut plate to the lug body independently of the torque and position of the wire binding screw.
- Lay-in lugs are similar to “C” or “J” type lugs, as are known, and are used to secure wires (e.g., electrical cables, wiring, tubing, etc.).
- Lay-in lugs are often used in electrical and similar applications to electrically connect service and/or feed phase-neutral conductors to electrical metering equipment and/or circuit protection.
- Lay-in lugs may be used in piping systems, such as electrical conduits and the like, to secure wires transposed vertically in a shaft, such as an electrical conduit riser. That is, lay-in lugs are used to hold (e.g., hang) wires vertically.
- FIG. 1 is a front perspective view of an exemplary lay-in lug 100 as is known.
- Lay-in lug 100 has a lug body 102 comprising a base 104 and two opposed and substantially parallel vertical lug walls 106 , 108 .
- Supported between and/or atop lug walls 106 and 108 is a removable nut plate 110 , which secures a wire binding screw 112 .
- lay-in lug 100 In use (e.g., in an installation operation), lay-in lug 100 is secured to a surface (not shown) at its base 104 . In vertical installation operations, lay-in lug 100 is secured such that the “open” ends 114 and 116 (e.g., sides of lug body 102 not dominated by a lug wall 106 , 108 ) face substantially up and down, respectively (e.g., toward negative X and positive X, respectively). That is, lug walls 106 and 108 will be generally parallel to the direction of a gravity vector G and a secured wire 118 . Nut plate 110 , with wire binding screw 112 secured thereto, is removed from between lug walls 106 , 108 .
- Wire 118 (e.g., electrical cable, wiring, etc.) is laid in, pulled through, or otherwise transposed in the center channel 120 of lug body 102 between lugs walls 106 and 108 , generally along the X axis.
- Nut plate 110 is returned to placement between and/or on top of lug walls 106 , 108 and wire binding screw 112 is torqued (e.g., screwed, driven, etc.) to secure wire 118 between base 104 and wire binding screw 112 in the Z direction.
- Wire 118 is, of course, further secured laterally (e.g., in the Y direction) by lug walls 106 , 108 .
- FIG. 2 depicts a top-front perspective exploded view of another known lay-in lug 200 .
- Lay-in lug 200 is similar to lay-in lug 100 and has a lug body 202 having a lug base 204 and a pair of generally parallel, opposed lug walls 206 and 208 .
- Lay-in lug 200 also has a nut plate 210 (e.g., a lug cap, top, etc.) attachable to the lug body 202 for capture of a wire 118 (e.g., electrical cable, etc.) with wire binding screw 212 .
- wire 118 e.g., electrical cable, etc.
- lay-in lug 200 has “open” ends 214 and 216 and nut plate 210 may be moved along an axis aligned between open ends 214 , 216 (e.g., the X axis).
- the nut plate 210 of lay-in lug 200 has a pair of generally parallel nut plate ears 218 and 220 and respective nut plate flanges 222 and 224 . As shown in FIG. 2 , each of the nut plate flanges 222 , 224 engages a respective lug body flange 226 , 228 of the lug body 202 .
- Such flange arrangements are used to secure nut plates (e.g., nut plates 110 , 210 , etc.) to lug bodies (e.g., lug bodies 102 , 202 , etc.) in a vertical (e.g., Z) direction.
- FIGS. 1 and 2 may be assumed to be fixed to the lugs 100 , 200 , 300 .
- lugs 100 , 200 , 300 may be oriented in other manners in real world applications, the lugs 100 , 200 , 300 are described as non-rotating within the coordinate system.
- the Z axis always refers to the “up-and-down” direction extending through nut plates 110 , 210 , 310 and bases 104 , 204 , 304 , irrespective of whether lugs 100 , 200 , 300 are placed on a “ground” surface, mounted to a wall, or are otherwise differently oriented.
- top-down (e.g., Z axis) access simplifies installation of wire 118 over prior “C” or “J” type lugs, but introduces a moveable and easily lost component—nut plate 110 / 210 with wire binding screw 112 / 212 attached. That is, since nut plate 110 / 210 is slideable and removable with respect to the rest of lug 100 / 200 , nut plate 110 / 210 may inadvertently slide away from lug walls 106 / 206 , 108 / 208 in transit and/or in installation. This is especially probable and problematic during the aforementioned electrical conduit riser type installation.
- nut plate 110 / 210 is not secured in lug body 102 / 202 in the vertical (e.g., up and down, along the X axis, etc.) direction and may slide or otherwise fall out due to the force of gravity exerted on nut plate 110 / 210 and wire binding screw 112 / 212 .
- wire binding screw 112 / 212 is driven (e.g., screwed) through nut plate 110 / 210 far enough that wire binding screw 112 / 212 passes through center channel 120 (similarly in FIG. 2 ) and is bound in lug base 104 / 204 .
- Lug Body 102 / 202 may have to be additionally machined to have a counterbore to allow wire binding screw 112 / 212 to be driven into base 104 / 204 .
- wire binding screw 112 / 212 With the wire binding screw 112 / 212 driven to contact or otherwise engage (e.g., be limited by) base 104 / 204 , nut plate 110 / 210 is bi-directionally secured along the X axis and will not slide out as it is constrained in the Y and Z axes by the lug walls 106 / 206 , 108 / 208 and in the X axis by the interaction of wire binding screw 112 / 212 with base 104 / 204 .
- Wire binding screw 112 / 212 may also engage inner vertical lug walls 106 / 206 , 108 / 208 (e.g., as with a counterbore, etc.).
- wire binding screw 112 / 212 must be used to secure nut plate 110 / 210 in the X axis. This is not useful during the installation operations described above because the wire binding screw 112 / 212 must be disengaged from the base 104 / 204 when nut plate 110 / 210 is removed to lay wire 118 .
- the lay-in lug has two spaced apart and substantially parallel lug walls.
- a nut plate is supported between the first lug wall and the second lug wall.
- a nut plate retainer exerts force on a lug wall and restricts the nut plate from moving in a direction substantially parallel to the first and second lug walls.
- the nut plate retainer has a flexible retaining cover and a pair of retaining legs extending from the retaining cover. Each of the retaining legs surround a portion of the outer wall of the lay-in lug and restrict movement of the nut plate.
- the nut plate retainer can either snap around the open end of the lug wall or along the open end wall of the nut plate. It may also clip around the nut plate and prevents its movement in a direction along the inner surfaces of the lug walls.
- the present invention generally provides an apparatus for securing nut plates in lay-in lugs.
- FIG. 3 illustrates a front perspective view of a lay-in lug 300 , according to an embodiment of the invention.
- Lay-in lug 300 may be similar to and improve on lay-in lugs 100 and 200 of FIGS. 1 and 2 , respectively. Accordingly, similar features are not described in further detail except as necessary to elucidate embodiments of the present invention.
- the lay-in lug 300 has a lug body 302 comprising a lug body base 304 and two opposed and substantially parallel vertical lug walls 306 , 308 . Supported between and/or atop lug walls 306 and 308 is a removable nut plate 310 , which secures a wire binding screw 312 .
- a nut plate retainer 500 shown in FIGS. 4 and 5 , restricts nut plate 310 from moving in direction along lug walls 306 , 308 (e.g., along the X axis).
- wire binding screw 312 biases a wire 316 in channel 318 against lug body base 304 .
- the lug body 302 has a first or face wall 341 , and a second or back wall 343 .
- Lay-in lug 300 may be formed and/or manufactured (e.g., extruded, cast, punched, etc.) using any appropriate material.
- base 304 and/or lug body 302 may be constructed of conductive material.
- base 304 and/or lug body 302 may be plated with at least one conductive material.
- Body 302 and base 304 may be formed as a single component or may be manufactured separately and attached to each other.
- Lug walls 306 , 308 may be constructed in any manner that allows nut plate 310 to be secured between them in the Y axis as well as constrained in the Z axis, such as the configurations of FIGS. 1 and 2 .
- Lug walls 306 and 308 each have respective inner surfaces 320 and 322 .
- nut plate 310 may be described as moveable and/or slideable in a direction substantially along inner surfaces 320 , 322 toward and/or away from unconstrained open ends 324 , 326 .
- the unconstrained open ends 324 , 326 have the first wall 341 , and the second wall 343 , respectively.
- lug walls 306 , 308 may have recessed wall channels 328 , 330 .
- Nut plate 310 may sit in, be supported in, and/or be moveably and/or slideably arranged in and/or on wall channels 328 , 330 .
- the wall channels 328 , 330 may be closed channels that have some portion of lug walls 306 , 308 overhanging edges of nut plate 310 .
- wall channels 328 , 330 may be open channels with no portion of lug walls 306 , 308 above nut plate 310 in the Z axis and nut plate 310 may be secured between lug walls 306 , 308 in a tight fitting relationship (e.g., the spacing between opposed walls 306 , 308 is slightly smaller than the width of nut plate 310 in the Y axis).
- wall channels 328 , 330 may have wall flanges 332 , 334 that may interlock with and/or otherwise engage a portion of nut plate 310 , such as nut plate flanges 336 , 338 .
- respective outer surfaces 340 , 342 of lug walls 306 , 308 may have retainer channels 344 , 346 formed thereon.
- retainer channels 344 , 346 may be recessed into outer surfaces 340 , 342 of lug walls 306 , 308 .
- retainer channels 344 , 346 may have one or more raised surfaces (e.g., bumps, flanges, etc.) extending from outer surfaces 340 , 342 .
- Nut plate 310 may be a removable component formed and/or manufactured of a similar material to lug body 302 . Nut plate 310 may be tapped to accommodate wire binding screw 312 . In some embodiments, nut plate 310 may have a slightly smaller length (e.g., along the X axis) than the length (e.g., along the X axis) of lug walls 306 , 308 . In this way, nut plate 310 may allow nut plate retainer 500 to overhang and/or otherwise impinge on a wall channel 328 , 330 and restrict movement of nut plate 310 as will be described in further details with respect to FIGS. 4 and 5 .
- FIG. 4 illustrates an exploded view of a lay-in lug assembly 300 , and the inventive nut plate retainer 500 , according to an embodiment of the present invention.
- FIG. 5 illustrates a front perspective view of a lay-in lug assembly 300 , with the inventive nut plate retainer 500 , secured thereto according to an embodiment of the present invention.
- the inventive nut plate retainer 500 has a top wall or cover 502 , having at least one hole or opening 512 , and an open base 508 .
- the nut plate retainer 500 has a first leg or wall or panel 504 , and a second leg or wall or panel 506 .
- the outer surface of the top wall or cover 502 could have at least one first or upper ridge or protrusion 514 .
- the outer surface of the first wall 504 , and/or the second wall 506 could have at least one second or side ridge or protrusion 516 . It is preferred that the hole or opening 512 , is sufficiently big so as to allow the passage of the wire binding screw 312 , as more clearly shown in FIG. 5 .
- the nut plate retainer 500 is a mechanism for restricting movement of the nut plate 310 along the X axis.
- Nut plate retainer 500 may be a fastener such as a spring clip or circlip and may restrict movement at both open ends of the nut plate 310 along the X axis (e.g., portions of nut plate 310 oriented toward open ends 324 , 326 ).
- the nut plate retainer 500 when placed over the lay-in lug assembly 300 , may overhang at least a portion of the wall channel 328 , 330 and/or center channel 318 . As a result, the nut plate retainer 500 , prevents the nut plate 310 , from sliding out of lug body 302 , in the unconstrained direction (e.g., positive or negative X axis).
- the nut plate retainer 500 may be formed as a single component or may comprise a separate top wall 502 , retaining legs or walls 504 , 506 , which are then secured to each other so as to form the nut plate retainer 500 .
- the nut plate retainer 500 may be formed from a flexible or semi-flexible material, such as thermoplastic.
- the nut plate retainer 500 may fit around the lug wall 341 , 343 in a flexible but tight fitting relationship such that a portion of plate retainer 500 (e.g., retaining legs 504 , 506 ) exerts a force against an open end 324 , 326 edge of a lug wall 306 , 308 in a direction substantially along the lug wall 341 , 343 , (e.g., along the X axis).
- plate retainer 500 exerts a force in one direction along the lug wall (e.g., in the positive X direction) as well as exerting a force in a substantially opposite direction along the lug wall (e.g., in the negative X direction). This secures plate retainer 500 to lug wall 341 , 343 as well as restricting movement of the nut plate 310 .
- the exact direction of the forces applied by the plate retainer 500 are not depicted. Based on the orientation and arrangement of certain portions of plate retainer 500 (e.g., retaining legs 504 , 506 ) the resultant forces exerted on the lug body 302 and/or the nut plate 310 may differ slightly.
- One of skill in the art would recognize the plate retainer 500 restricts movement of the nut plate 310 as depicted in FIGS. 4 and 5 without confining the present invention to a specific point of contact or force direction.
- the top wall or cover 502 may be a flexible (e.g., thermoplastic) member, and preferably in some embodiments, it is approximately the same length as the length of an outer surface of a lug wall (e.g., outer surface 341 , 343 ) along the Y axis (e.g., in a direction substantially perpendicular to the direction of movement of the nut plate 310 ).
- the top cover or wall 502 may be slightly shorter than an outer surface of lug wall 306 , 308 .
- retaining legs 504 , 506 may flex to snap fit the nut plate retainer 500 against and/or pinch an edge (e.g., at open end 324 , 326 , etc.) of the nut plate 310 , along walls 341 , 343 .
- the retaining legs 504 , 506 may be flexible members, and in some embodiments, approximately the same length as the width of an edge surface of a lug wall (e.g., lug walls 341 , 343 at open end 324 or 326 ) along the Y axis (e.g., in a direction substantially perpendicular to lug walls 306 , 308 and the direction of movement of nut plate 310 ).
- the retaining legs 504 , 506 may be slightly shorter than an edge surface of lug wall 341 , 343 .
- retaining legs 504 , 506 may flex to snap fit plate retainer 500 against and/or pinch an edge (e.g., at the opening end 324 , 326 , etc.) of the nut plate 310 , along walls 341 , 343 .
- lay-in lug 300 is secured to a surface (not shown) at and/or by its base 304 (e.g., using mounting apparatus, etc.).
- lay-in lug 300 is secured such that “open” ends 324 and 326 (e.g., sides of lug body 302 not dominated by a lug wall 306 , 308 ) face substantially up and down, respectively (e.g., toward negative X and positive X, respectively). That is, the lug walls 304 and 306 will be generally parallel to the direction of a gravity vector G and a secured wire 316 .
- Nut plate 310 with wire binding screw 312 secured thereto, is removed from between lug walls 306 , 308 .
- Wire 316 e.g., electrical cable, wiring, etc.
- Wire 316 is laid in, pulled through, or otherwise transposed in the center channel 318 of lug body 302 between lugs walls 306 and 308 , generally along the X axis.
- Nut plate 310 is returned to placement between and/or on top of lug walls 306 , 308 by sliding nut plate 310 along wall channels 328 , 330 and interlocking flanges 332 , 334 , 336 , 338 .
- Wire binding screw 312 is torqued (e.g., screwed, driven, etc.) to secure wire 316 between base 304 and wire binding screw 312 in the Z direction. Wire 316 is further secured laterally (e.g., in the Y direction) by lug walls 306 , 308 .
- Plate retainer 500 is clipped onto lug body 302 .
- Retaining legs 504 , 506 are set onto the outer surface 341 , 343 and the retaining legs 504 , 506 , are secured around a portion (e.g., a portion at an open end 324 , 326 ) of a lug wall 306 , 308 .
- Retaining legs 504 , 506 exert a force on the wall surface 341 , 343 , and/or retaining legs 504 , 506 , exert a force on the end portion of the lug wall 306 , 308 .
- plate retainer 500 is secured to, clipped to, pinching, etc. a lug wall 306 , 308 .
- the nut plate retainer 500 thus serves as a stop which restricts the movement of the nut plate 310 along the walls 306 , 308 .
- only one plate retainer 500 may be used.
- any number and/or arrangement of nut plate retainers 500 may be used.
- the nut plate retainer 500 is preferably made from a material selected from a group comprising a metallic material, a composite material, a plastic material, a thermoplastic material, to name a few.
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Abstract
Description
- The instant patent application claims priority to and the benefit of pending U.S. patent application Ser. No. 12/150,803, filed on May 1, 2008, titled “Lay-In Lug Nut Plate Retainer,” the entire disclosure of which application is incorporated herein by reference.
- The instant patent application also claims priority to and the benefit of pending U.S. Provisional Patent Application Ser. No. 61/098,838, filed on Sep. 22, 2008, titled “Retainer, Lay-In Lug Assembly Nut Plate Retainer,” the entire disclosure of which provisional application is incorporated herein by reference.
- The present invention relates generally to a lay-in lug nut plate retainer. More particularly, the invention encompasses a nut plate retainer for a lay-in lug assembly nut plate. The present invention is also directed to a novel lay-in nut plate retainer which provides an alternative way to secure a nut plate to a lay-in lug body during shipping and/or the installation process. The inventive nut plate retainer has a cover with an open area and at least two legs to surround a portion of the lay-in lug and the nut plate.
- Lay-in lugs are provided in many electrical products as the means to electrically connect service or feed phase/neutral conductors to electrical metering equipment and/or circuit protection. All lay-in lug assemblies contain a lug body, a tapped plate (referred to as the nut plate) and a wire binding screw. During a typical installation with lay-in lug assemblies, the wire binding screw and the nut plate are removed by sliding out the nut plate prior to installing a phase/neutral conductor. Sliding-out the wire binding screw and nut plate provides top down access to the lug body. This simplifies the installation of a phase/neutral conductor to the lug body. Once the phase/neutral conductor has been installed the nut plate is slide-in and the wire binding screw is driven to the necessary torque requirements.
- There are at least two types of nut plates used today in lay-in lug assemblies. Extruded-punched and formed plates are known to be used in existing applications. If the nut plate is of the extruded type, then the nut plate would only need to be secured in the direction of assembly (front to back with respect to the lug body). This means an additional bi-directional restraint is needed. In the extruded case, the nut plate, by default, would be constrained from top to bottom with respect to the lug body.
- Currently, securing the nut plate to the lug body or limiting the nut plate's slide-out motion is achieved by driving the wire binding screw into the nut plate far enough such that the screw enters the wire way of the lug body and creates pressure that keeps the nut plate in place. The nut plate retention in the assembly is dependent on the location and torque of the wire binding screw. One problem with this method is that if the screw is not properly assembled the nut plate and screw sometimes falls out during transit or during installation of the enclosure. This increases the chances for the nut plate to be misplaced, lost, or in some cases fall in unreachable places. When this happens replacement parts must be shipped or in extreme cases, finished goods replaced. This is a costly and timely burden for the manufacturer and distributor, as well as, an aggravation for the customer.
- This invention improves on the deficiencies of the prior art and provides an inventive lay-in lug assembly nut plate retainer.
- The invention is a novel lay-in lug assembly nut plate retainer.
- Therefore, one purpose of this invention is to provide a nut plate retainer for a lay-in lug assembly.
- Another purpose of this invention is to provide a reliable solution to use a nut plate retainer for a lay-in lug assembly.
- Yet another purpose of this invention is to provide a robust nut plate retainer for a lay-in lug assembly.
- Therefore, in one aspect this invention comprises a lay-in lug comprising:
- a first lug wall;
- a second lug wall spaced apart from and substantially parallel to said first lug wall;
- a nut plate supported between said first lug wall and said second lug wall; and
- a nut plate retainer configured to cover at least a portion of said first lug wall and said second lug wall, and substantially restrict said nut plate from moving in a direction substantially along said first and second lug walls relative to at least one open end in said lay-in lug.
- In another aspect this invention comprises a nut plate retainer for preventing a nut plate of a lay-in lug from moving along a wall of said lay-in lug comprising:
- a flexible retaining cover;
- a first retaining leg extending from a first section of said retaining cover, wherein said first retaining leg covers at least a portion of a first outer wall of said lay-in lug, and restricts movement of a first end of said nut plate; and
- a second retaining leg extending from a second section of said retaining cover, wherein said second retaining leg covers at least a portion of a second outer wall of said lay-in lug, and restricts movement of a second end of said nut plate.
- In yet another aspect this invention comprises a lay-in lug comprising:
- a first lug wall;
- a second lug wall spaced apart from and substantially parallel to said first lug wall;
- a nut plate supported between said first lug wall and said second lug wall; and
- a retaining means configured to cover at least a portion of said first lug wall and said second lug wall, and substantially restrict said nut plate from moving in a direction substantially along said first and second lug walls.
- Although the scope of the present invention is much broader than any particular embodiment, a detailed description of the preferred embodiment follows together with drawings. These drawings are for illustration purposes only and are not drawn to scale. Like numbers represent like features and components in the drawings. The invention may best be understood by reference to the ensuing detailed description in conjunction with the drawings in which:
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FIG. 1 illustrates a front perspective view of a prior art lay-in lug; -
FIG. 2 illustrates a top-front perspective exploded view of a prior art lay-in lug; -
FIG. 3 illustrates a front perspective view of a lay-in lug according to an embodiment of the invention; -
FIG. 4 illustrates an exploded view of a lay-in lug assembly and the inventive nut plate retainer according to an embodiment of the present invention; and -
FIG. 5 illustrates a front perspective view of a lay-in lug assembly with the inventive nut plate retainer secured thereto according to an embodiment of the present invention. - This invention removes the dependency between nut plate retention and the binding screw location/torque. The lay-in lug nut plate retainer secures the nut plate to the lug body independently of the torque and position of the wire binding screw.
- Lay-in lugs are similar to “C” or “J” type lugs, as are known, and are used to secure wires (e.g., electrical cables, wiring, tubing, etc.). Lay-in lugs are often used in electrical and similar applications to electrically connect service and/or feed phase-neutral conductors to electrical metering equipment and/or circuit protection. Lay-in lugs may be used in piping systems, such as electrical conduits and the like, to secure wires transposed vertically in a shaft, such as an electrical conduit riser. That is, lay-in lugs are used to hold (e.g., hang) wires vertically.
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FIG. 1 is a front perspective view of an exemplary lay-inlug 100 as is known. Lay-inlug 100 has alug body 102 comprising abase 104 and two opposed and substantially parallelvertical lug walls lug walls removable nut plate 110, which secures awire binding screw 112. - In use (e.g., in an installation operation), lay-in
lug 100 is secured to a surface (not shown) at itsbase 104. In vertical installation operations, lay-inlug 100 is secured such that the “open” ends 114 and 116 (e.g., sides oflug body 102 not dominated by alug wall 106, 108) face substantially up and down, respectively (e.g., toward negative X and positive X, respectively). That is,lug walls secured wire 118.Nut plate 110, withwire binding screw 112 secured thereto, is removed from betweenlug walls center channel 120 oflug body 102. Wire 118 (e.g., electrical cable, wiring, etc.) is laid in, pulled through, or otherwise transposed in thecenter channel 120 oflug body 102 betweenlugs walls Nut plate 110 is returned to placement between and/or on top oflug walls wire binding screw 112 is torqued (e.g., screwed, driven, etc.) to securewire 118 betweenbase 104 andwire binding screw 112 in the Z direction.Wire 118 is, of course, further secured laterally (e.g., in the Y direction) bylug walls -
FIG. 2 depicts a top-front perspective exploded view of another known lay-inlug 200. Lay-inlug 200 is similar to lay-inlug 100 and has alug body 202 having alug base 204 and a pair of generally parallel,opposed lug walls lug 200 also has a nut plate 210 (e.g., a lug cap, top, etc.) attachable to thelug body 202 for capture of a wire 118 (e.g., electrical cable, etc.) withwire binding screw 212. As with lay-inlug 100, lay-inlug 200 has “open” ends 214 and 216 andnut plate 210 may be moved along an axis aligned betweenopen ends 214, 216 (e.g., the X axis). Thenut plate 210 of lay-inlug 200 has a pair of generally parallelnut plate ears nut plate flanges FIG. 2 , each of thenut plate flanges lug body 202. Such flange arrangements, as well as similar ridged arrangements, are used to secure nut plates (e.g.,nut plates bodies - For simplification of discussion, the XYZ axes of
FIGS. 1 and 2 , as well asFIGS. 3-6 below, may be assumed to be fixed to thelugs lugs lugs nut plates bases lugs - The top-down (e.g., Z axis) access simplifies installation of
wire 118 over prior “C” or “J” type lugs, but introduces a moveable and easily lost component—nut plate 110/210 withwire binding screw 112/212 attached. That is, sincenut plate 110/210 is slideable and removable with respect to the rest oflug 100/200,nut plate 110/210 may inadvertently slide away fromlug walls 106/206, 108/208 in transit and/or in installation. This is especially probable and problematic during the aforementioned electrical conduit riser type installation. Since theopen end 116/216 oflug body 102/202 faces downward along the X axis (e.g., towards the ground or bottom and generally in the same direction as gravity vector G),nut plate 110/210 is not secured inlug body 102/202 in the vertical (e.g., up and down, along the X axis, etc.) direction and may slide or otherwise fall out due to the force of gravity exerted onnut plate 110/210 andwire binding screw 112/212. - Efforts have been made to prevent loss of
nut plate 110/210 andwire binding screw 112/212. Generally,wire binding screw 112/212 is driven (e.g., screwed) throughnut plate 110/210 far enough thatwire binding screw 112/212 passes through center channel 120 (similarly inFIG. 2 ) and is bound inlug base 104/204.Lug Body 102/202 may have to be additionally machined to have a counterbore to allowwire binding screw 112/212 to be driven intobase 104/204. With thewire binding screw 112/212 driven to contact or otherwise engage (e.g., be limited by)base 104/204,nut plate 110/210 is bi-directionally secured along the X axis and will not slide out as it is constrained in the Y and Z axes by thelug walls 106/206, 108/208 and in the X axis by the interaction ofwire binding screw 112/212 withbase 104/204.Wire binding screw 112/212 may also engage innervertical lug walls 106/206, 108/208 (e.g., as with a counterbore, etc.). - These efforts fall short in that
wire binding screw 112/212 must be used to securenut plate 110/210 in the X axis. This is not useful during the installation operations described above because thewire binding screw 112/212 must be disengaged from the base 104/204 whennut plate 110/210 is removed to laywire 118. During replacement of thenut plate 110/210, gravitational forces act on thenut plate 110/210 in the X direction and thenut plate 110/210 and thewire binding screw 112/212 may fall before thewire binding screw 112/212 is biased against thewire 118 andnut plate 110/210 interacts with thelug walls 106/206, 108/208 (e.g., atflanges - This invention improves on the prior art. The lay-in lug has two spaced apart and substantially parallel lug walls. A nut plate is supported between the first lug wall and the second lug wall. A nut plate retainer exerts force on a lug wall and restricts the nut plate from moving in a direction substantially parallel to the first and second lug walls. The nut plate retainer has a flexible retaining cover and a pair of retaining legs extending from the retaining cover. Each of the retaining legs surround a portion of the outer wall of the lay-in lug and restrict movement of the nut plate. The nut plate retainer can either snap around the open end of the lug wall or along the open end wall of the nut plate. It may also clip around the nut plate and prevents its movement in a direction along the inner surfaces of the lug walls.
- Furthermore, the present invention generally provides an apparatus for securing nut plates in lay-in lugs.
-
FIG. 3 illustrates a front perspective view of a lay-inlug 300, according to an embodiment of the invention. Lay-inlug 300 may be similar to and improve on lay-inlugs FIGS. 1 and 2 , respectively. Accordingly, similar features are not described in further detail except as necessary to elucidate embodiments of the present invention. - The lay-in
lug 300 has alug body 302 comprising alug body base 304 and two opposed and substantially parallelvertical lug walls lug walls removable nut plate 310, which secures awire binding screw 312. Anut plate retainer 500, shown inFIGS. 4 and 5 , restrictsnut plate 310 from moving in direction alonglug walls 306, 308 (e.g., along the X axis). Withnut plate 310 secured bylug walls nut plate retainer 500,wire binding screw 312 biases awire 316 inchannel 318 againstlug body base 304. Thelug body 302, has a first orface wall 341, and a second orback wall 343. - Lay-in
lug 300 may be formed and/or manufactured (e.g., extruded, cast, punched, etc.) using any appropriate material. In some embodiments,base 304 and/or lugbody 302 may be constructed of conductive material. In the same or alternative embodiments,base 304 and/or lugbody 302 may be plated with at least one conductive material.Body 302 andbase 304 may be formed as a single component or may be manufactured separately and attached to each other. -
Lug walls nut plate 310 to be secured between them in the Y axis as well as constrained in the Z axis, such as the configurations ofFIGS. 1 and 2 .Lug walls inner surfaces nut plate 310 may be described as moveable and/or slideable in a direction substantially alonginner surfaces first wall 341, and thesecond wall 343, respectively. - In some embodiments, lug
walls wall channels Nut plate 310 may sit in, be supported in, and/or be moveably and/or slideably arranged in and/or onwall channels wall channels lug walls nut plate 310. In other embodiments,wall channels lug walls nut plate 310 in the Z axis andnut plate 310 may be secured betweenlug walls opposed walls nut plate 310 in the Y axis). In the same or alternative embodiments,wall channels wall flanges nut plate 310, such asnut plate flanges - Additionally, respective
outer surfaces lug walls retainer channels retainer channels outer surfaces lug walls retainer channels outer surfaces -
Nut plate 310 may be a removable component formed and/or manufactured of a similar material to lugbody 302.Nut plate 310 may be tapped to accommodatewire binding screw 312. In some embodiments,nut plate 310 may have a slightly smaller length (e.g., along the X axis) than the length (e.g., along the X axis) oflug walls nut plate 310 may allownut plate retainer 500 to overhang and/or otherwise impinge on awall channel nut plate 310 as will be described in further details with respect toFIGS. 4 and 5 . -
FIG. 4 illustrates an exploded view of a lay-inlug assembly 300, and the inventivenut plate retainer 500, according to an embodiment of the present invention. WhileFIG. 5 illustrates a front perspective view of a lay-inlug assembly 300, with the inventivenut plate retainer 500, secured thereto according to an embodiment of the present invention. The inventivenut plate retainer 500, has a top wall or cover 502, having at least one hole oropening 512, and anopen base 508. Thenut plate retainer 500, has a first leg or wall orpanel 504, and a second leg or wall orpanel 506. In some embodiments the outer surface of the top wall or cover 502, could have at least one first or upper ridge orprotrusion 514. In some embodiments the outer surface of thefirst wall 504, and/or thesecond wall 506, could have at least one second or side ridge orprotrusion 516. It is preferred that the hole oropening 512, is sufficiently big so as to allow the passage of thewire binding screw 312, as more clearly shown inFIG. 5 . - As can be seen in
FIGS. 4 and 5 , that thenut plate retainer 500 is a mechanism for restricting movement of thenut plate 310 along the X axis.Nut plate retainer 500 may be a fastener such as a spring clip or circlip and may restrict movement at both open ends of thenut plate 310 along the X axis (e.g., portions ofnut plate 310 oriented toward open ends 324, 326). Thenut plate retainer 500, when placed over the lay-inlug assembly 300, may overhang at least a portion of thewall channel center channel 318. As a result, thenut plate retainer 500, prevents thenut plate 310, from sliding out oflug body 302, in the unconstrained direction (e.g., positive or negative X axis). - The
nut plate retainer 500, may be formed as a single component or may comprise a separatetop wall 502, retaining legs orwalls nut plate retainer 500. Thenut plate retainer 500, may be formed from a flexible or semi-flexible material, such as thermoplastic. As a result, thenut plate retainer 500 may fit around thelug wall legs 504, 506) exerts a force against anopen end lug wall lug wall plate retainer 500 exerts a force in one direction along the lug wall (e.g., in the positive X direction) as well as exerting a force in a substantially opposite direction along the lug wall (e.g., in the negative X direction). This securesplate retainer 500 to lugwall nut plate 310. - As will be understood from the description herein and the associated figures, the exact direction of the forces applied by the
plate retainer 500 are not depicted. Based on the orientation and arrangement of certain portions of plate retainer 500 (e.g., retaininglegs 504, 506) the resultant forces exerted on thelug body 302 and/or thenut plate 310 may differ slightly. One of skill in the art would recognize theplate retainer 500 restricts movement of thenut plate 310 as depicted inFIGS. 4 and 5 without confining the present invention to a specific point of contact or force direction. - The top wall or cover 502, may be a flexible (e.g., thermoplastic) member, and preferably in some embodiments, it is approximately the same length as the length of an outer surface of a lug wall (e.g.,
outer surface 341, 343) along the Y axis (e.g., in a direction substantially perpendicular to the direction of movement of the nut plate 310). In alternative embodiments, the top cover orwall 502 may be slightly shorter than an outer surface oflug wall legs nut plate retainer 500 against and/or pinch an edge (e.g., atopen end nut plate 310, alongwalls - The retaining
legs walls open end 324 or 326) along the Y axis (e.g., in a direction substantially perpendicular to lugwalls legs lug wall legs fit plate retainer 500 against and/or pinch an edge (e.g., at the openingend nut plate 310, alongwalls - In operation, lay-in
lug 300 is secured to a surface (not shown) at and/or by its base 304 (e.g., using mounting apparatus, etc.). In vertical installation operations, lay-inlug 300 is secured such that “open” ends 324 and 326 (e.g., sides oflug body 302 not dominated by alug wall 306, 308) face substantially up and down, respectively (e.g., toward negative X and positive X, respectively). That is, thelug walls secured wire 316.Nut plate 310, withwire binding screw 312 secured thereto, is removed from betweenlug walls center channel 318 oflug body 302. Wire 316 (e.g., electrical cable, wiring, etc.) is laid in, pulled through, or otherwise transposed in thecenter channel 318 oflug body 302 betweenlugs walls Nut plate 310 is returned to placement between and/or on top oflug walls nut plate 310 alongwall channels flanges Wire binding screw 312 is torqued (e.g., screwed, driven, etc.) to securewire 316 betweenbase 304 andwire binding screw 312 in the Z direction.Wire 316 is further secured laterally (e.g., in the Y direction) bylug walls -
Plate retainer 500 is clipped ontolug body 302. Retaininglegs outer surface legs open end 324, 326) of alug wall legs wall surface legs lug wall plate retainer 500 is secured to, clipped to, pinching, etc. alug wall nut plate retainer 500 thus serves as a stop which restricts the movement of thenut plate 310 along thewalls plate retainer 500 may be used. However, any number and/or arrangement ofnut plate retainers 500 may be used. - The
nut plate retainer 500, is preferably made from a material selected from a group comprising a metallic material, a composite material, a plastic material, a thermoplastic material, to name a few. - The foregoing Detailed Description is to be understood as being in every respect illustrative and exemplary, but not restrictive, and the scope of the invention disclosed herein is not to be determined from the Detailed Description, but rather from the claims as interpreted according to the full breadth permitted by the patent laws. It is to be understood that the embodiments shown and described herein are only illustrative of the principles of the present invention and that various modifications may be implemented by those skilled in the art without departing from the scope and spirit of the invention. Those skilled in the art could implement various other feature combinations without departing from the scope and spirit of the invention.
Claims (23)
Priority Applications (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US12/563,202 US8011978B2 (en) | 2008-09-22 | 2009-09-21 | Retainer, lay-in lug assembly nut plate retainer |
MX2009010145A MX2009010145A (en) | 2008-09-22 | 2009-09-22 | Retainer, lay-in lug assembly nut plate retainer. |
CA2679813A CA2679813C (en) | 2008-09-22 | 2009-09-22 | Retainer, lay-in lug assembly nut plate retainer |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US9883808P | 2008-09-22 | 2008-09-22 | |
US12/563,202 US8011978B2 (en) | 2008-09-22 | 2009-09-21 | Retainer, lay-in lug assembly nut plate retainer |
Publications (2)
Publication Number | Publication Date |
---|---|
US20100075546A1 true US20100075546A1 (en) | 2010-03-25 |
US8011978B2 US8011978B2 (en) | 2011-09-06 |
Family
ID=42038129
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US12/563,202 Expired - Fee Related US8011978B2 (en) | 2008-09-22 | 2009-09-21 | Retainer, lay-in lug assembly nut plate retainer |
Country Status (3)
Country | Link |
---|---|
US (1) | US8011978B2 (en) |
CA (1) | CA2679813C (en) |
MX (1) | MX2009010145A (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US10476180B2 (en) * | 2014-10-21 | 2019-11-12 | Te Connectivity Germany Gmbh | Connector for the connection of two electrical conductors |
Families Citing this family (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE102009059007B4 (en) * | 2009-12-17 | 2015-04-09 | Phoenix Contact Gmbh & Co. Kg | Device for releasably securing a conductor to a current transformer housing |
CA2881678A1 (en) | 2012-08-14 | 2014-02-20 | Greene, Tweed Technologies, Inc. | Rivetless nut plate, rivetless nut plate assemblies, workpieces containing rivetless nut plate fasteners, and related methods |
US9293841B2 (en) | 2013-07-10 | 2016-03-22 | Panduit Corp. | Mechanical lug with dovetail interlock feature |
USD731678S1 (en) * | 2013-11-21 | 2015-06-09 | Lite Guard Safety Solutions Pty Ltd. | Lifting lug |
Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4059335A (en) * | 1975-03-03 | 1977-11-22 | Hans Simon | Electric connector |
-
2009
- 2009-09-21 US US12/563,202 patent/US8011978B2/en not_active Expired - Fee Related
- 2009-09-22 MX MX2009010145A patent/MX2009010145A/en active IP Right Grant
- 2009-09-22 CA CA2679813A patent/CA2679813C/en not_active Expired - Fee Related
Patent Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4059335A (en) * | 1975-03-03 | 1977-11-22 | Hans Simon | Electric connector |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US10476180B2 (en) * | 2014-10-21 | 2019-11-12 | Te Connectivity Germany Gmbh | Connector for the connection of two electrical conductors |
Also Published As
Publication number | Publication date |
---|---|
CA2679813C (en) | 2016-10-18 |
US8011978B2 (en) | 2011-09-06 |
MX2009010145A (en) | 2010-05-03 |
CA2679813A1 (en) | 2010-03-22 |
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